專家信息：

熊善新，工學博士，西安科技大學化學與化工學院教授，陜西省“青年**計劃”特聘專家，中組部“西部之光訪問學者”。

主要研究方向為光電功能材料與器件，煤基超級電容器電極材料，煤炭及煤化工副產物的高效利用，礦用高分子材料和聚合物納米復合材料等。現為陜西省人才項目特聘專家，中組部“西部之光”訪問學者，“光電功能材料與器件”校級創新團隊負責人，兼任中國感光學會電致變色專委會副主任，陜西省納米科技學會理事。主持國家自然科學基金面上項目2項，主持陜西省科技廳和教育廳項目多項，承擔企業合作項目十余項。在國內外學術期刊上發表論文120余篇，其中SCI收錄90余篇；申請中國發明專利20余項，獲準專利10項；撰寫專著一部，受邀參編Wiely出版的英文論著一章；多次受邀在國際學術會議上作主題報告和分會報告，相關研究工作在“科學中國人”雜志上進行了專訪報道。  

教育及工作經歷：

1994-1998，西安礦業學院，本科  化學工藝

1998-2001，西安科技學院，碩士 導師周安寧教授  主要研究煤基聚合物共混材料

2001-2004，四川大學，博士 導師王琪院士  主要研究導電聚合物微納結構

2005-2011，南洋理工大學  Research Scientist 合作導師陸雪紅教授   主要研究電致變色材料與器件

2001年7月至2005年8月，在西安科技大學化學與化工學院工作。

2005年8月至2011年8月，在新加坡南洋理工大學進行博士后研究工作，其中2007年7月至2008年1月在加州大學洛杉磯分校材料學院以博士后身份進行學術交流。

2011年9月，入選陜西省“青年**計劃”并回國工作。

2013年7月，入選中組部“西部之光”訪問學者計劃。

現任西安科技大學化學與化工學院副教授。 

學術兼職及社會任職：

中國電致變色學會（籌）秘書長及多個國際國內學術組織會員。 

主講課程：

資料更新中……

培養研究生情況：

資料更新中……

 

研究方向：

1．導電聚合物電致變色材料與器件（利用材料在是電場下可逆的顏色變色而作為節能建筑的可調光窗戶、汽車的防眩后視鏡、軍用隱身與偽裝等）。

2．煤基功能材料的制備與應用（煤炭及蘭炭末用作高性能活性炭及超級電容器電極材料的制備與應用）。

3．導電聚合物基超級電容器電極材料。

4. 高分子納米復合材料。 

承擔科研項目情況：

1. 國家自然科學基金一項面上項目：基于界面共價鍵構建的聚苯胺/多維碳基納米結構體雜化電致變色材料”。

2.國家自然科學基金：二維共軛有機框架結構電致變色材料的分子設計與穩定性增強機理。    

3.國家自然科學基金：基于界面共價鍵構建的聚苯胺/多維碳基納米結構體雜化電致變色材料。  

4.陜西省自然科學基金：基于界面聚合法構建共價鍵聯接的聚苯胺/碳納米復合電容材料。      

 科研成果：

1. 在構建具有界面鍵合作用的高性能有機-無機納米雜化電致變色材料與紅外隱身器件方面進行了開創性的研究，同時也組裝出世界上第一根直徑僅為0.8毫米的柔性電致變色纖維。

2. 他研制的有機-無機納米雜化導電聚合物溶液變色材料，可應用于電致變色靈巧窗，具有節能減排，低成本等一系列優點，在民生工業中具有廣闊的應用前景。

3. 以第一研究人身份參與研究的紅外隱身器件研究，紅外隱身器件可通過改變電壓達到隨時改變軍事目標的紅外發射特征的目的，而無需重新更換涂層，這極大地提高了軍事目標在戰場上的存活概率，在軍工產業上具有里程碑式的意義。

4. 利用碳基納米結構體高電導率和與聚苯胺強的相互作用增強材料的電子傳導過程；研究維數對聚苯胺分子結構、聚集態結構及離子傳輸性能的影響；分別改進影響電致變色材料工作的電子傳導和離子傳輸過程來提高材料的變色性能；研究材料變色性能的增強機理，揭示材料結構與性能關系的共性問題；拓展界面共價鍵復合法對導電聚合物聚集態結構調控和材料性能改進的普適性。 

發明公開： 

[1]熊善新, 呂鳳艷, 趙雪妮, 汪曉芹, 李振. 一種煤基活性炭的有機酸協同脫灰方法[P]. 陜西省: CN118419926A, 2024-08-02.

[2]汪曉芹, 趙惠, 袁華, 龍志尚, 向德寧, 代潤東, 熊善新, 李侃社, 周安寧. 一種煤基摻氮活性炭的制備方法[P]. 陜西省: CN117208906A, 2023-12-12.

[3]熊善新, 楊娜娜, 劉娟娟, 張瑋, 李振. 一種煤氣化細渣的綜合利用方法[P]. 陜西省: CN115304090A, 2022-11-08.

[4]李學振, 楊光明, 熊善新, 朱長勇, 李振, 魏英華, 汪曉琴, 徐迎節, 劉健, 周亞北, 楊超, 周安寧, 李靜偉, 張振武, 方媛, 高靜. 一種超低灰煤基電容炭的制備方法[P]. 寧夏回族自治區: CN113929094A, 2022-01-14.

[5]汪曉芹, 從少領, 袁華, 賀凡, 徐強強, 李侃社, 熊善新, 吳伯華, 宮銘, 趙偉, 劉靜, 張潤蘭, 褚佳, 吳燕, 周安寧. 一種棕腐酸層片基NiCo-LDH復合粉體的制備方法[P]. 陜西省: CN112978814A, 2021-06-18.

[6]熊善新, 劉健, 劉娟娟. 具有三嗪結構的多孔共價有機框架材料的制備方法[P]. 陜西省: CN112898515A, 2021-06-04.

[7]汪曉芹, 賀凡, 楊娜娜, 從少領, 李侃社, 吳伯華, 熊善新, 宮銘, 周安寧. 一種棕腐酸層片基MOFs衍生電催化劑材料的制備方法[P]. 陜西省: CN111244481A, 2020-06-05.

[8]汪曉芹, 楊娜娜, 賀凡, 李巧琴, 從少領, 李侃社, 熊善新, 周安寧, 牛紅梅, 劉靜, 陳創前, 康潔, 朱雪丹, 李錦, 章結兵. 一種腐植酸層片基雙金屬MOFs復合粉體的制備方法[P]. 陜西省: CN109872880A, 2019-06-11.

[9]熊善新. 一種復合電致變色薄膜的制備方法[P]. 陜西: CN107032637A, 2017-08-11.

[10]汪曉芹, 趙捷, 李侃社, 熊善新, 宮銘, 蔡會武, 彭飛, 李巧琴, 楊玉飛, 張潤蘭, 陳創前, 褚佳, 吳伯華, 閆蘭英, 周安寧. 一種聯合制備碳微納米管和摻N多孔碳/氧化鎳錳的方法[P]. 陜西: CN106348276A, 2017-01-25.

[11]汪曉芹, 張永, 趙捷, 李侃社, 熊善新, 宮銘, 周安寧, 陳創前, 閆蘭英, 劉鴻翔, 徐金鑫, 楊甲甲, 吳伯華, 褚佳, 張潤蘭. 一種摻N多孔碳/氧化鐵復合粉體的制備方法[P]. 陜西: CN105845454A, 2016-08-10.

[12]褚佳, 張英, 逯登玉, 張文龍, 王先珊, 彭夢毅, 楊姣, 熊善新, 馬晶. 一種水熱自組裝制備聚苯胺電致變色薄膜的方法[P]. 陜西: CN105236766A, 2016-01-13.

[13]張潤蘭, 劉向榮, 蔡江濤, 張亞婷, 熊善新, 趙順省. 一種多鐵性鐵酸釔納米纖維的制備方法[P]. 陜西: CN105088419A, 2015-11-25.

[14]熊善新, 李主峰, 孔真真, 汪曉芹, 周安寧. 一種蘭炭末的化學脫灰方法[P]. 陜西: CN104962337A, 2015-10-07.

[15]汪曉芹, 李侃社, 熊善新, 周安寧, 宮銘, 褚佳, 吳伯華, 張永, 操植, 劉鴻翔, 劉靜, 張潤蘭. 一種摻N多孔碳/NiO復合材料及其制備方法[P]. 陜西: CN104966625A, 2015-10-07.

[16]葉慶春, 周安寧, 張遷, 楊程, 熊善新, 張坤, 褚佳, 汪曉芹. 一種煤基聚苯胺抗靜電板材及其制備方法[P]. 北京: CN104530646A, 2015-04-22.

[17]葉慶春, 周安寧, 張遷, 楊程, 王嘉, 熊善新, 張坤, 楊伏生. 一種煤基聚苯胺及防腐涂料[P]. 北京: CN104513394A, 2015-04-15.

[18]宮銘, 蔡會武, 曲建林, 熊善新, 汪曉芹. 一種仿細胞外層膜結構修飾的氧化石墨烯及其制備方法[P]. 陜西: CN104258471A, 2015-01-07.

[19]褚佳, 李楊, 朱雪丹, 熊善新, 馬晶. 一種石墨烯基硫化鎘復合材料的制備與應用[P]. 陜西: CN104089998A, 2014-10-08.

[20]吳伯華, 宮銘, 張永, 徐金鑫, 熊善新. 一種仿細胞外層膜結構基因載體及其制備方法[P]. 陜西: CN103877583A, 2014-06-25.

[21]熊善新, 周安寧, 汪曉芹, 宮銘, 吳伯華, 禇佳, 石玉靜. 一種可調紅外發射率柔性隱身器件及其組裝方法[P]. 陜西: CN103713439A, 2014-04-09.

[22]宮銘, 徐強強, 熊善新, 汪曉芹, 吳伯華, 褚佳. 一種含醛基的磷酰膽堿聚合物及其制備方法和應用[P]. 陜西: CN103275269A, 2013-09-04.

[23]宮銘, 石玉靜, 鐘玉虎, 熊善新, 汪曉芹. 具有仿細胞外層膜結構的納米顆粒及其制備方法[P]. 陜西: CN102875733A, 2013-01-16.

[24]熊善新, 汪曉芹, 周安寧, 石玉靜. 一種纖維狀柔性電致變色器件及其制備方法[P]. 陜西: CN102759835A, 2012-10-31.

[25]夏和生, 王琪, 熊善新, 華正坤. 聚合物/碳納米管復合材料及其原位本體聚合的制備方法[P]. 四川: CN1410454, 2003-04-16.

發明授權：

[1]李學振, 楊光明, 熊善新, 朱長勇, 李振, 魏英華, 汪曉琴, 徐迎節, 劉健, 周亞北, 楊超, 周安寧, 李靜偉, 張振武, 方媛, 高靜. 一種超低灰煤基電容炭的制備方法[P]. 寧夏回族自治區: CN113929094B, 2023-08-22.

[2]熊善新, 劉健, 劉娟娟. 具有三嗪結構的多孔共價有機框架材料的制備方法[P]. 陜西省: CN112898515B, 2022-11-11.

[3]汪曉芹, 從少領, 袁華, 賀凡, 徐強強, 李侃社, 熊善新, 吳伯華, 宮銘, 趙偉, 劉靜, 張潤蘭, 褚佳, 吳燕, 周安寧. 一種棕腐酸層片基NiCo-LDH復合粉體的制備方法[P]. 陜西省: CN112978814B, 2021-12-24.

[4]汪曉芹, 賀凡, 楊娜娜, 從少領, 李侃社, 吳伯華, 熊善新, 宮銘, 周安寧. 一種棕腐酸層片基MOFs衍生電催化劑材料的制備方法[P]. 陜西省: CN111244481B, 2020-10-09.

[5]汪曉芹, 楊娜娜, 賀凡, 李巧琴, 從少領, 李侃社, 熊善新, 周安寧, 牛紅梅, 劉靜, 陳創前, 康潔, 朱雪丹, 李錦, 章結兵. 一種腐植酸層片基雙金屬MOFs復合粉體的制備方法[P]. 陜西省: CN109872880B, 2020-05-22.

[6]熊善新. 一種復合電致變色薄膜的制備方法[P]. 陜西省: CN107032637B, 2018-03-20.

[7]褚佳, 張英, 逯登玉, 張文龍, 王先珊, 彭夢毅, 楊姣, 熊善新, 馬晶. 一種水熱自組裝制備聚苯胺電致變色薄膜的方法[P]. 陜西省: CN105236766B, 2017-09-26.

[8]汪曉芹, 趙捷, 李侃社, 熊善新, 宮銘, 蔡會武, 彭飛, 李巧琴, 楊玉飛, 張潤蘭, 陳創前, 褚佳, 吳伯華, 閆蘭英, 周安寧. 一種聯合制備碳微納米管和摻N多孔碳/氧化鎳錳的方法[P]. 陜西省: CN106348276B, 2017-08-25.

[9]汪曉芹, 張永, 趙捷, 李侃社, 熊善新, 宮銘, 周安寧, 陳創前, 閆蘭英, 劉鴻翔, 徐金鑫, 楊甲甲, 吳伯華, 褚佳, 張潤蘭. 一種摻N多孔碳/氧化鐵復合粉體的制備方法[P]. 陜西省: CN105845454B, 2017-08-22.

[10]汪曉芹, 李侃社, 熊善新, 周安寧, 宮銘, 褚佳, 吳伯華, 張永, 操植, 劉鴻翔, 劉靜, 張潤蘭. 一種摻N多孔碳/NiO復合材料及其制備方法[P]. 陜西省: CN104966625B, 2017-07-28.

[11]熊善新, 周安寧, 汪曉芹, 宮銘, 吳伯華, 禇佳, 石玉靜. 一種可調紅外發射率柔性隱身器件及其組裝方法[P]. 陜西省: CN103713439B, 2017-01-04.

[12]宮銘, 蔡會武, 曲建林, 熊善新, 汪曉芹. 一種仿細胞外層膜結構修飾的氧化石墨烯及其制備方法[P]. 陜西省: CN104258471B, 2016-09-07.

[13]吳伯華, 宮銘, 張永, 徐金鑫, 熊善新. 一種仿細胞外層膜結構基因載體及其制備方法[P]. 陜西省: CN103877583B, 2016-04-13.

[14]宮銘, 徐強強, 熊善新, 汪曉芹, 吳伯華, 褚佳. 一種含醛基的磷酰膽堿聚合物及其制備方法和應用[P]. 陜西省: CN103275269B, 2015-09-23.

[15]熊善新, 汪曉芹, 周安寧, 石玉靜. 一種纖維狀柔性電致變色器件及其制備方法[P]. 陜西省: CN102759835B, 2014-10-22.

[16]宮銘, 石玉靜, 鐘玉虎, 熊善新, 汪曉芹. 具有仿細胞外層膜結構的納米顆粒及其制備方法[P]. 陜西省: CN102875733B, 2014-06-11.

[17]夏和生, 王琪, 熊善新, 華正坤. 聚合物/碳納米管復合材料及其原位本體聚合的制備方法[P]. 四川省: CN1164618C, 2004-09-01.

實用新型：

[1]熊善新, 劉娟娟, 楊娜娜, 呂鳳艷, 李振. 一種煤氣化渣無機組分和碳組分的富集系統[P]. 陜西省: CN217250704U, 2022-08-23.

[2]熊善新, 李卓龍, 劉健, 褚佳, 張潤蘭. 智能變色眼鏡系統[P]. 陜西省: CN216351624U, 2022-04-19. 

論文專著：

已發表學術論文90余篇，其中SCI收錄23篇，EI收錄25篇，他引300余次。

代表性英文論文：

[1]Xiong, Shanxin*; Liu, Jian; Wang, Yuancheng; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Gong, Ming; Wu, Bohua.Solvothermal synthesis of triphenylamine-based covalent organic framework nanofibers with excellent cycle stability for supercapacitor electrodes.Journal of Applied Polymer Science, 2022, 139(3): e51510.

[2]Song, Ruitong; Li, Guoping; Zhang, Yueyan; Rao, Bin; Xiong, Shanxin; He, Gang*.Novel electrochromic materials based on chalcogenoviologens for smart windows, E-price tag and flexible display with improved reversibility and stability.Chemical Engineering Journal, 2021, 422: 130057. 

[3]Wu, Bohua*; Wang, Haiting; Wu, Changqing; Du, Fengxiao; Chu, Jia; Wang, Xiaoqin; Xiong, Shanxin.Ru-doped Ta₂O₅。 supported Pt nanoparticles: an efficient electrocatalyst for methanol oxidation.Ionics, 2021, 27(10): 4361-4369.

[4]Li, Zhen; Chang, Jing*; Yang, Chao; Qu, Jinzhou; Yu, Yuexian; Xiong, Shanxin.Experiments and CFD simulation of accessories used in stirred pulp-mixing process.Chemical Engineering and Processing, 2021, 166: 108463.

[5]He, Fan; Li, Kanshe; Cong, Shaoling; Yuan, Hua; Wang, Xiaoqin*; Wu, Bohua; Zhang, Runlan; Chu, Jia; Gong, Ming; Xiong, Shanxin*; Wu, Yan; Zhou, Anning.Design and Synthesis of N-Doped Carbon Skeleton Assembled by Carbon Nanotubes and Graphene as a High-Performance Electrode Material for Supercapacitors.ACS Applied Energy Materials, 2021, 4(8): 7731-7742.

[6]Liu, Gu; Zhang, Yukun; Xu, Kejun; Wang, Liuying*; Xiong, Shanxin*.Preparation and Evaluation of the Supercapacitive Performance of MnO₂ /3D-reduced Graphene Oxide Aerogel Composite Electrode Through In Situ Electrochemical Deposition.Journal of Electronic Materials, 2021, 50(8): 4557-4566.

[7]He, Fan; Li, Kanshe; Cong, Shaoling; Yuan, Hua; Wu, Changqing; Wang, Xiaoqin*; Wu, Bohua; Xiong, Shanxin*; Wu, Yan; Zhou, Anning.An Enhanced-Activity and High-Stability PtCo/N-Doped Carbon Skeleton Electrocatalyst Derived from UA-ZIF-67 Template for Methanol Oxidation.ChemistrySelect, 2021, 6(27): 6973-6985.

[8]Liu, Gu; Liu, Jian; Xu, Kejun; Wang, Liuying*; Xiong, Shanxin*.Fabrication of Flexible Graphene Paper/MnO₂ Composite Supercapacitor Electrode through Electrodeposition of MnO₂ Nanoparticles on Graphene Paper.ChemistrySelect, 2021, 6(26): 6803-6810. 

[9]Lv, Fengyan; Xiong, Shanxin*; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Gong, Ming; Wu, Bohua; Li, Zhen; Zhu, Changyong; Yang, Zhongfu; Yang, Cheng.Electrochemical fabrication of polyaniline/graphene paper (PANI/GP) supercapacitor electrode materials on free-standing flexible graphene paper.High Performance Polymers, 2021, 09540083211023128. 

[10]Yang Fan; Chu Jia*; Cheng Yaping; Gong Jiafang; Wang Xiaoqin; Xiong Shanxin*.Hydrothermal Synthesis of NiCo-layered Double Hydroxide Nanosheets Decorated on Biomass Carbon Skeleton for High Performance Supercapacitor.Chemical Research in Chinese Universities, 2021, 37(3): 772-777. 

[11]Xiong, Shanxin*; Zhang, Jiaojiao; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Wu, Bohua; Chu, Jia; Qu, Mengnan; Li, Zhen; Chen, Zhenming.Electrochemical Synthesis of Covalently Bonded Poly (3, 4-dioxyethylthiophene)-Carbon Nanotubes Composite with Enhanced Electrochromic Properties.Journal of Electronic Materials, 2021, 50(4): 2389-2399. 

[12]Qu, Mengnan*; Pang, Yajie; Xue, Menghui; Ma, Lili; Peng, Lei; Liu, Xiangrong; Xiong, Shanxin; He, Jinmei*.Colorful superhydrophobic materials with durability and chemical stability based on kaolin.Surface and Interface Analysis, 2021, 53(3): 365-373.

[13]Xiong, SX; He, Y; Zhang, XK; Wu, BH; Chu, J; Wang, XQ; Zhang, RL; Gong, M; Li, Z; Chen, ZM; Hydrothermal synthesis of high specific capacitance electrode material using porous bagasse biomass carbon hosting MnO₂ nanospheres, BIOMASS CONVERSION AND BIOREFINERY, 2021, 11, 1325-1334. 

[14]Xiong, Shanxin*; Zhang, Jiaojiao; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Qu, Mengnan; Li, Zhen; Chen, Zhenming.Electrochemical Preparation of Covalently Bonded PEDOT - Graphene Oxide Composite Electrochromic Materials Using Thiophene-2-methylanine as Bridging Group.ChemistrySelect, 2020, 5(39): 12206-12212.

[15]Li, Xue; Chu, Jia*; Cheng, Yaping; Yang, Fan; Xiong, Shanxin*.Novel prussian blue@Carbon-dots hybrid thin film: The impact of carbon-dots on material structure and electrochromic performance.Electrochimica Acta, 2020, 355: 136659. 

[16]Li, Xue; Chu, Jia*; Cheng, Yaping; Yang, Fan; Xiong, Shanxin*.A novel PANI@Carbon dot hybrid with enhanced electrochemical and electrochromic properties.Materials Letters, 2020, 275: 128081. 

[17]Wu, Bohua*; Wu, Changqing; Zhu, Jiajin; Li, Xue; Chu, Jia; Wang, Xiaoqin; Xiong, Shanxin*.Facile synthesis of carboxylated-graphene nanosheets supported PtRu catalysts and their electrocatalytic oxidation of methanol.Ionics, 2020, 26(9): 4599-4608. 

[18]Wang, Yuancheng; Xiong, Shanxin*; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Wu, Bohua; Gong, Ming; Qu, Mengnan; Li, Zhen; Chen, Zhenming.Water-dispersible polyaniline-carbon nanotubes composites with interface covalent bond and their enhanced electrochemical and electrochromic properties.Polymer Engineering and Science, 2020, 60(9): 2204-2213. 

[19]Zhang, Yong; Xiong, Shanxin*; Wang, Yuyun; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Li, Zhen; Qu, Mengnan; Chen, Zhenming.Postcomposition Preparation and Supercapacitive Properties of Polyaniline Nanotube/Graphene Oxide Composites with Interfacial Electrostatic Interaction.Journal of Electronic Materials, 2020, 49(7): 4076-4084. 

[20]Wang, Yuancheng; Xiong, Shanxin*; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Gong, Ming; Wu, Bohua; Qu, Mengnan; Li, Zhen; Chen, Zhenming.Covalently bonded polyaniline-reduced graphene oxide/single-walled carbon nanotubes nanocomposites: influence of various dimensional carbon nanostructures on the electrochromic behavior of PANI.Polymer Journal, 2020, 52(7): 783-792. 

[21]Xiong, Shanxin*; He, Yan; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Gong, Ming; Wu, Bohua; Qu, Mengnan; Li, Zhen; Zhu, Changyong; Yang, Zhongfu; Yang, Cheng.Ultralow Ash Semicoal Powder Obtained by Two-Step Acid Treatment and Its Supercapacitive Properties.Energy & Fuels, 2020, 34(6): 7591-7599. 

[22]Wang, Jiaxin; He, Jinmei*; Ma, Lili; Zhang, Yi; Shen, Lihua; Xiong, Shanxin; Li, Kanshe; Qu, Mengnan*.Multifunctional conductive cellulose fabric with flexibility, superamphiphobicity and flame-retardancy for all-weather wearable smart electronic textiles and high-temperature warning device.Chemical Engineering Journal, 2020, 390: 124508. 

[23]He, Fan; Yang, Nana; Li, Kanshe; Wang, Xiaoqin*; Cong, Shaoling; Zhang, Linsen; Xiong, Shanxin*; Zhou, Anning.Hydrothermal synthesis of Ni-based metal organic frameworks/graphene oxide composites as supercapacitor electrode materials.Journal of Materials Research, 2020, 35(11): 1439-1450. 

[24]Yang, Nana; Li, Qiaoqin; Li, Kanshe; Wang, Xiaoqin*; He, Fan; Cong, Shaoling; Xiong, Shanxin; Zhou, Anning.Effects of low-temperature annealing on capacitance performances of NiCo-based bimetal-organic framework materials synthesized in various solvents.Materials Letters, 2020, 268: 127608. 

[25]Xiong, Shanxin*; Wang, Yuancheng; Wang, Xiaoqin; Chu, Jia; Zhang, Runlan; Gong, Ming; Wu, Bohua; Li, Zhen.Schiff base type conjugated organic framework nanofibers: Solvothermal synthesis and electrochromic properties.Solar Energy Materials and Solar Cells, 2020, 209: 110438. 

[26]Chu, Jia*; Li, Xue; Li, Qiaoqin; Ma, Jing*; Wu, Bohua; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Xiong, Shanxin*.Hydrothermal synthesis of PANI nanowires for high-performance supercapacitor.High Performance Polymers, 2020, 32(3): 258-267. 

[27]Zhang, Runlan*; Wang, Xiaoqin; Yu, Chunxia; Liu, Jian; Yao, Junjie; Kang, Xiaoying; Xing, Xingxing; Xiong, Shanxin*.Preparation of Multiferroic YFeO₃ Nanofibers and the Photocatalytic Activity under Visible Irradiation.Integrated Ferroelectrics, 2020, 206(1): 105-111.

[28]Wang, Xiaoqin*; Yang, Nana; Li, Qiaoqin; He, Fan; Yang, Yufei; Cong, Shaoling; Li, Kanshe; Xiong, Shanxin*; Zhou, Anning.Hydrothermal Synthesis of Humate-Layer-Based Bimetal Organic Framework Composites as High Rate-Capability and Enery-Density Electrode Materials for Supercapacitors.ChemistrySelect, 2020, 5(9): 2794-2804.

[29]Chu, Jia*; Li, Xue; Cheng, Yaping; Xiong, Shanxin.Electrochromic properties of Prussian Blue nanocube film directly grown on FTO substrates by hydrothermal method.Materials Letters, 2020, 258: 126782. 

[30]Xiong, Shanxin*; Zhang, Yong; Wang, Yuyun; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Li, Zhen; Chen, Zhenming*; Comparative study on the supercapacitive properties of PANI nanofibers, nanotubes, and nanospheres, High Performance Polymers, 2020, 32, 600-608.

[31]Xiong, Shanxin*; Zhang, Jiaojiao; Wang, Ru; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Li, Zhen; Qu, Mengnan; Chen, Zhenming*.Enhancing the Electrochromic Properties of Polyaniline through Incorporating Terpyridine Units and Coordination Bonding with Transition Metal Ions.ChemistrySelect, 2019, 4(48): 14343-14350.

[32]Xiong, Shanxin*; He, Yan; Zhang, Xiangkai; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Li, Zhen; Chen, Zhenming*; Hydrothermal synthesis of high specific capacitance electrode material using porous bagasse biomass carbon hosting MnO₂ nanospheres, Biomass Conversion and Biorefinery., 2019, DOI: 10.1007/s13399-019-00525-y.

[33]Xiong, Shanxin; Wang, Yuancheng; Chu, Jia; One-pot hydrothermal synthesis of polyaniline nanofibers/reduced graphene oxide nanocomposites and their supercapacitive properties, HIGH PERFORMANCE POLYMERS, 2019, 31, 9-10.

[34]Xiong, Shanxin; Zhang, Xiangkai; Wang, Ru; Preparation of covalently bonded polyaniline nanofibers/carbon nanotubes supercapacitor electrode materials using interfacial polymerization approach, JOURNAL OF POLYMER RESEARCH, 2019, 26, DOI: 10.1007/s10965-019-1749-x.

[35]Xiong, SX; Zhang, XK; Wang, R; Lu, YZ; Li, HF; Liu, J; Li, S; Qiu, Z; Wu, BH; Chu, J; Preparation of covalently bonded polyaniline nanofibers/carbon nanotubes supercapacitor electrode materials using interfacial polymerization approach, JOURNAL OF POLYMER RESEARCH, 2019, 26, 90.

[36]Fu, Yanhong; Li, Zhen*; Zhou, Anning; Xiong, Shanxin; Yang, Chao.Evaluation of coal component liberation upon impact breakage by MLA.Fuel, 2019, 258: 116136. 

[37]Xiong, Shanxin*; Wang, Yuancheng; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Wu, Bohua; Li, Zhen.One-pot hydrothermal synthesis of polyaniline nanofibers/reduced graphene oxide nanocomposites and their supercapacitive properties.High Performance Polymers, 2019, 31(9-10): 1238-1247. 

[38]Xiong, Shanxin*; Yang, Nana; Zhang, Xiangkai; Wang, Ru; Lu, Yizhang; Li, Haifu; Liu, Jian; Li, Shuai; Qiu, Zhu; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Chen, Zhenming.Simultaneous Preparation of Polyaniline Nanofibers/Manganese Dioxide Composites at the Interface of Oil/Water for Supercapacitive Application.Journal of Electronic Materials, 2019, 48(10): 6666-6674. 

[39]Wang, Xiaoqin*; Yang, Nana; Li, Qiaoqin; He, Fan; Yang, Yufei; Wu, Bohua; Chu, Jia; Zhou, Anning; Xiong, Shanxin*.Solvothermal synthesis of flower-string-like NiCo-MOF/MWCNT composites as a high-performance supercapacitor electrode material.Journal of Solid State Chemistry, 2019, 277: 575-586.

[40]Li, Qiaoqin; Wang, Xiaoqin*; Yang, Nana; He, Fan; Yang, Yufei; Wu, Bohua; Chu, Jia; Zhou, Anning; Xiong, Shanxin*.Hydrangea-like NiCo-based Bimetal-organic Frameworks, and their Pros and Cons as Supercapacitor Electrode Materials in Aqueous Electrolytes.Zeitschrift fur Anorganische und Allgemeine Chemie, 2019, 645(16): 1022-1030.  

[41]Li, Yuangang*; Yang, Mengru; Tian, Zimin; Luo, Ningdan; Li, Yan; Zhang, Haohao; Zhou, Anning; Xiong, Shanxin*.Assembly of Copper Phthalocyanine on TiO₂ Nanorod Arrays as Co-catalyst for Enhanced Photoelectrochemical Water Splitting.Frontiers in Chemistry, 2019, 7: 334.  

[42]Li, Zhen*; Zhao, Chengqian; Zhang, Huaiqing; Liu, Jiongtian; Yang, Chao; Xiong, Shanxin.Process intensification of stirred pulp-mixing in flotation.Chemical Engineering and Processing, 2019, 138: 55-64. 

[43]Xiong, Shanxin*; Zhang, Xiangkai; Wang, Ru; Lu, Yizhang; Li, Haifu; Liu, Jian; Li, Shuai; Qiu, Zhu; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Chen, Zhenming*.Preparation of covalently bonded polyaniline nanofibers/carbon nanotubes supercapacitor electrode materials using interfacial polymerization approach.Journal of Polymer Research, 2019, 26(4): 90. 

[44]Zhang, Runlan*; Li, Shuaishuai; Chen, Changle; Han, Li An; Xiong, Shanxin.Structures and local ferroelectric polarization switching properties of orthorhombic YFeO₃ thin film prepared by a sol-gel method.Chinese Physics B, 2019, 28(3): 037701. 

[45]Wang Xiaoqin*; Li Qiaoqin; Yang Nana; Yang Yufei; He Fan; Chu Jia; Gong Ming; Wu Bohua; Zhang Runlan; Xiong Shanxin*.Hydrothermal synthesis of NiCo-based bimetal-organic frameworks as electrode materials for supercapacitors.Journal of Solid State Chemistry, 2019, 270: 370-378. 

[46]Xiong, Shanxin*; Wang, Ru; Zhang, Xiangkai; Wu, Yu; Xu, Zhongying; Ma, Bei; Zhang, Xiaolu; Qu, Qiaochu; Wu, Bohua; Chu, Jia; Wang, Xiaoqin; Zhang, Runlan; Gong, Ming; Chen, Zhenming.Covalent Bonding of PANI and p-Phenylenediamine-Functionalized GO Using N,N '-Dicyclohexylcarbodiimide as Dehydrating Agent for Electrochromic Applications.ChemistrySelect, 2019, 4(2): 543-550. 

[47]Wu, Bohua*; Zhu, Jiajin; Li, Xue; Wang, Xiaoqin; Chu, Jia; Xiong, Shanxin.PtRu nanoparticles supported on p-phenylenediamine-functionalized multiwalled carbon nanotubes: enhanced activity and stability for methanol oxidation.Ionics, 2019, 25(1): 181-189. 

[48]Wang Xiaoqin*; Yang Yufei; Yang Nana; Zhao Jie; Zhang Yong; Li Qiaoqin; Chu Jia; Wu Bohua; Xiong Shanxin*.Synthesis and capacitance properties of N-doped porous carbon/NixCoyOz/carbon micro-nanotubes composites using coal-based polyaniline as a carbon and nitrogen source.Journal of Materials Science: Materials in Electronics , 2019, 30(2): 1056-1067. 

[49]Xiong Shanxin*; Wang Yuyun; Lu Yizhang; Li Haifu; Liu Jian; Li Shuai; Qiu Zhu; Gong Ming; Wu Bohua; Chu Jia; Wang Xiaoqin; Zhang Runlan.Enhancing the electrochromic performances of polyaniline film through incorporating polyaniline nanofibers synthesized by interfacial polymerization approach.Polymer Bulletin, 2018, 75(8): 3427-3443.

[50]Wang Xiaoqin*; Li Qiaoqin; Zhang Yong; Yang Yufei; Cao Zhi; Xiong Shanxin*.Synthesis and capacitance properties of N-doped porous carbon/NiO nanosheet composites using coal-based polyaniline as carbon and nitrogen source.Applied Surface Science, 2018, 442: 565-574.

[51]Wang Xiaoqin*; Yang Yufei; Zhang Yong; Li Qiaoqin; Gong Ming; Zhang Runlan; Xiong Shanxin*.Facile synthesis and capacitance properties of N-doped porous carbon/iron oxide composites through the single-step pyrolysis of coal-based polyaniline.Journal of Porous Materials, 2018, 25(3): 845-853.

[52]Wang Xiaoqin*; Yang Yufei; Zhang Yong; Li Qiaoqin; Gong Ming; Zhang Runlan; Xiong Shanxin*.Facile synthesis and capacitance properties of N-doped porous carbon/iron oxide composites through the single-step pyrolysis of coal-based polyaniline (vol 25, pg 845, 2018).Journal of Porous Materials, 2018, 25(3): 855-855.

[53]Wu, Bohua*; Zhu, Jiajin; Yin, Siyuan; Li, Xue; Chu, Jia; Xiong, Shanxin.4-aminobenzensulphonate-assisted enhanced hydrophily of carbon nanotubes and simultaneous uniform dispersion of PtRu nanoparticles.Micro & Nano Letters, 2018, 13(5): 728-731.

[54]Chu, Jia*; Lu, Dengyu; Wu, Bohua; Wang, Xiaoqin; Gong, Ming; Zhang, Runlan; Xiong, Shanxin.Synthesis and electrochromic properties of conducting polymers: Polyaniline directly grown on fluorine-doped tin oxide substrate via hydrothermal techniques.Solar Energy Materials and Solar Cells, 2018, 177: 70-74. 

[55]Xiong, SX; Lan, JP; Yin, SY; Wang, YY; Kong, ZZ; Gong, M; Wu, BH; Chu, J; Wang, XQ; Zhang, RL; Enhancing the electrochromic properties of polyaniline via coordinate bond tethering the polyaniline with gold colloids, SOLAR ENERGY MATERIALS AND SOLAR CELLS, 2017, 177, 134-141.

[56]Chu, Jia*; Lu, Dengyu; Ma, Jing; Wang, Min; Wang, Xiaoqin; Xiong, Shanxin.Controlled growth of MnO₂ via a facile one-step hydrothermal method and their application in supercapacitors.Materials Letters, 2017, 193: 263-265.

[57]Chu, Jia*; Lu, Dengyu; Wang, Xianshan; Wang, Xiaoqin; Xiong, Shanxin.WO₃ nanoflower coated with graphene nanosheet: Synergetic energy storage composite electrode for supercapacitor application.Journal of Alloys and Compounds, 2017, 702: 568-572.

[58]Xiong, Shanxin.Fabrication of high yield and highly crystalline poly(2,5-dimethoxyanline) nanoplates using various o.Journal of Materials Science: Materials in Electronics , 2016, 27(11): 11143-11150.

[59]Chu, Jia*; Lan, Jinpeng; Lu, Dengyu; Ma, Jing; Wang, Xiaoqin; Wu, Bohua; Gong, Ming; Zhang, Runlan; Xiong, Shanxin.Facile fabrication of WO₃crystalline nanoplate on FTO glass and their application in electrochromism.Micro & Nano Letters, 2016, 11(11): 749-752.

[60]Chu, Jia*; Kong, Zhenzhen; Lu, Dengyu; Zhang, Wenlong; Wang, Xianshan; Yu, Yifan; Li, Sai; Wang, Xiaoqin; Xiong, Shanxin; Ma, Jing.Hydrothermal synthesis of vanadium oxide nanorods and their electrochromic performance.Materials Letters, 2016, 166: 179-182.

[61]Wang, Xiaoqin; Xu, Jinxin; Kong, Zhenzhen; Xiong, Shanxin*; Li, Zhufeng; Fu, Jialun; Zhang, Runlan; Gong, Ming; Wu, Bohua; Chu, Jia.A Facile Synthesis Method of Poly(3,5-dimethyoxyaniline) Hollow Microsphere through Interfacial Polymerization Approach using Camphorsulfonic Acid as the Doping Agent.Micro & Nano Letters, 2015, 10.1049/mnl.2015.016: 645-648.

[62]Wang Xiaoqin*; Zhang Yong; Xu Qiangqiang; Xu Jinxin; Wu Bohua; Gong Min; Chu Jia; Xiong Shanxin.A low-cost quasi-solid DSSC assembled with PVDF-based gel electrolyte plasticized by PC-EC & electrodeposited Pt counter electrode.Journal of Photochemistry and Photobiology A: Chemistry , 2015, 311: 112-117.

[63]Wu, Bohua*; Gong, Ming; Chu, Jia; Wang, Xiaoqin; Xiao, Chunhui; Xiong, Shanxin.Ionic liquid polymer directed growth of PdPt nanoparticles on carbon nanotube and their electrochemical oxidation of formic acid.Ionics, 2015, 21(3): 729-736.

[64]Wang, Xiaoqin; Xu, Jinxin; Kong, Zhenzhen; Xiong, Shanxin; Li, Zhufeng; Fu, Jialun; Zhang, Runlan; Gong, Ming; Wu, Bohua; Chu, Jia.Facile synthesis method of poly(3,5-dimethyoxyaniline) hollow microsphere through interfacial polymerisation approach using camphorsulfonic acid as the doping agent.Micro & Nano Letters, 2015, 10(11): 645-648. 

[65]Xiong, Shanxin*; Fu, Jialun; Li, Zhufeng; Shi, Yujing; Wang, Xiaoqin; Chu, Jia; Gong, Ming; Wu, Bohua.Modulating the Electrochromic Performances of Transmissive and Reflective Devices Using N,N-Dimethyl Formamide Modified Poly(3,4-Ethylenedioxythiophene)/Poly(Styrene Sulfonate) Blend as Active Layers.Journal of Macromolecular Science Part B-Physics, 2015, 54(7): 799-810.

[66]Wu, Bohua*; Wang, Chao; Cui, Ying; Mao, Liqiu; Xiong, Shanxin.Tailoring carbon nanotubes surface with maleic anhydride for highly dispersed PtRu nanoparticles and their electrocatalytic oxidation of methanol.RSC Advances, 2015, 5(22): 16986-16992.

[67]xiong shanxin; shi yujing; chu jia; gong ming; wu bohua; wang xiaoqing.Preparation of High-performance Covalently Bonded Polyaniline Nanorods/Graphene Supercapacitor Electrode Materials using Interfacial Copolymerization Approach.Electrochimica Acta, 2014, (127): 139-145.

[68]Xiong, Shanxin*; Shi, Yujing; Chen, Shi; Li, Jie; Wang, Xiaoqin; Chu, Jia; Gong, Ming; Wu, Bohua.Interfacial polymerization of poly(2,5-dimethoxyaniline) and its enhanced capacitive performances.Journal of Applied Polymer Science, 2014, 131(17): 8407-8412.

[69]Xiong, Shanxin*; Li, Zhufeng; Gong, Ming; Wang, Xiaoqin; Fu, Jialun; Shi, Yujing; Wu, Bohua; Chu, Jia.Covalently Bonded Polyaniline and para-phenylenediamine Functionalized Graphene Oxide: How the Conductive Two-dimensional Nanostructure Influences the Electrochromic Behaviors of Polyaniline.Electrochimica Acta, 2014, 138: 101-108.

[70]Wu, Bohua*; Gong, Ming; Chu, Jia; Wang, Xiaoqin; Xiong, Shanxin.Facile synthesis of highly dispersed PtSn nanoparticles on carbon nanotubes with excellent ethanol electrooxidation performance.Indian Journal of Chemistry - Section A: Inorganic, Physical, Theoretical and Analytical Chemistry , 2013, 52(12): 1557-1563.

[71]Xiong, Shanxin*; Zhang, Liying; Lu, Xuehong.Conductivities enhancement of poly(3,4-ethylenedioxythiophene)/poly(styrene sulfonate) transparent electrodes with diol additives.Polymer Bulletin, 2013, 70(1): 237-247.

[72]Xiong Shanxin; Yang Fan; Jiang Hao; Ma Jan; Lu Xuehong.Covalently bonded polyaniline/fullerene hybrids with coral-like morphology for high-performance supercapacitor.Electrochimica Acta, 2012, 85: 235-242.

[73]Xiong Shanxin; Yang Fan; Ding Guoqiang; Mya K.Y.; Ma Jan; Lu Xuehong.Covalent bonding of polyaniline on fullerene: Enhanced electrical, ionic conductivities and electrochromic performances.Electrochimica Acta, 2012, 67: 194-200.

[74]Xiong Shanxin; Zhang Liying; Lu Xuehong.Conductivities enhancement of poly(3,4-ethylenedioxythiophene)/poly(styrene sulfonate) transparent electrodes with diol additives.Polymer Bulletin, 2012, 70: 237-247.

[75]Kong, Junhua; Liu, Zhaolin; Yang, Zhengchun; Tan, Hui Ru; Xiong, Shanxin; Wong, Siew Yee; Li, Xu*; Lu, Xuehong.Carbon/SnO₂/carbon core/shell/shell hybrid nanofibers: Tailored nanostructure for the anode of lithium ion batteries with high reversibility and rate capacity.Nanoscale, 2012, 4(2): 525-530.

[76]Wei, Jia; Xiong, Shanxin; Bai, Yu; Jia, Pengtao; Ma, Jan; Lu, Xuehong*.Polyaniline nanoparticles doped with star-like poly(styrene sulfonate): Synthesis and electrochromic properties.Solar Energy Materials and Solar Cells, 2012, 99: 141-147.

[77]Xiong, Shanxin; Liu, Jing; Lu, Xuehong*.Preparation of highly crystalline poly(2,5-dimethoxyaniline) nanoplates using a soft-template method and their structural characterization.Australian Journal of Chemistry, 2011, 64: 1194-1200.

[78]Nguyen Chien A.; Xiong Shanxin; Ma Jan; Lu Xuehong; Lee Pooi see.High ionic conductivity (PVDF-TrFE)/PEO blended polymer electrolytes for solid electrochromic devices.Physical Chemistry Chemical Physics, 2011, 13: 13319-13326.

[79]Xiong, Shanxin; Wei, Jia; Jia, Pengtao; Yang, Liping; Ma, Jan; Lu, Xuehong*.Water-processable polyaniline with covalently bonded single-walled carbon nanotubes: Enhanced electrochromic properties and impedance analysis.ACS Applied Materials & Interfaces, 2011, 3(3): 782-788.

[80]Xiong, Shanxin; Phua, Si Lei; Dunn, Bruce S.; Ma, Jan; Lu, Xuehong*.Covalently bonded polyaniline-TiO₂ hybrids: A facile approach to highly stable anodic electrochromic materials with low oxidation potentials.Chemistry of Materials, 2010, 22(1): 255-260.

[81]Yee, Wu Aik; Xiong, Shanxin; Ding, Guoqiang; Nguyen, Chien Anh; Lee, Pooi See; Ma, Jan; Kotaki, Masaya; Liu, Ye; Lu, Xuehong.Supercritical carbon dioxide-treated electrospun poly(vinylidene fluoride) nanofibrous membranes: Morphology, structures and properties as an ionic-liquid host.Macromolecular Rapid Communications, 2010, 31(20): 1779-1784.

[82]Jia, Pengtao; Argun, Avni A.; Xu, Jianwei; Xiong, Shanxin; Ma, Jan; Hammond, Paula T.; Lu, Xuehong*.High-contrast electrochromic thin films via layer-by-layer assembly of starlike and sulfonated polyaniline.Chemistry of Materials, 2010, 22(22): 6085-6091.

[83]Jia, Pengtao; Argun, Avni A.; Xu, Jianwei; Xiong, Shanxin; Ma, Jan; Hammond, Paula T.; Lu, Xuehong*.Enhanced electrochromic switching in multilayer thin films of polyaniline-tethered silsesquioxane nanocage.Chemistry of Materials, 2009, 21(19): 4434-4441.

[84]Xiong, Shanxin; Ma, Jan; Lu, Xuehong*.A complementary electrochromic device based on polyaniline tethered polyhedral oligomeric silsesquioxane and poly(3,4-ethylenedioxythiophene)/poly(4-styrene sulfonic acid).Solar Energy Materials and Solar Cells, 2009, 93(12): 2113-2117.

[85]Nguyen, Chien A.; Xiong, Shanxin; Jan, Ma.; Lu, Xuehong; Lee, Pooi See.Toward electrochromic device using solid electrolyte with polar polymer host.Journal of Physical Chemistry B, 2009, 113(23): 8006-8010.

[86]Zhang, Liying; Xiong, Shanxin; Ma, Jan; Lu, Xuehong*.A complementary electrochromic device based on polyaniline-tethered polyhedral oligomeric silsesquioxane and tungsten oxide.Solar Energy Materials and Solar Cells, 2009, 93(5): 625-629.

[87]Xiong, Shanxin*; Wang, Qi; Chen, Yinghong.Template synthesis and magnetic response of polyaniline/Fe₃O₄ composite microtubes.Journal of Applied Polymer Science, 2009, 111(2): 963-969. 

[88]Xiong, Shanxin; Jia, Pengtao; Mya, K. Yi; Ma, Jan; Boey, Freddy; Lu, Xuehong*.Star-like polyaniline prepared from octa(aminophenyl) silsesquioxane: Enhanced electrochromic contrast and electrochemical stability.Electrochimica Acta, 2008, 53(9): 3523-3530. 

[89]Xiong, Shanxin; Xiao, Yang; Ma, Jan; Zhang, Liying; Lu, Xuehong*.Enhancement of electrochromic contrast by tethering conjugated polymer chains onto polyhedral oligomeric silsesquioxane nanocages.Macromolecular Rapid Communications, 2007, 28(3): 281-285. 

[90]Xiong, Shanxin; Wang, Qi*; Chen, Yinghong.Study on electrical conductivity of single polyaniline microtube.Materials Letters, 2007, 61(14-15): 2965-2968. 

[91]Xiong, Shanxin; Wang, Qi*; Chen, Yinghong.Preparation of polyaniline/TiO₂ hybrid microwires in the microchannels of a template.Materials Chemistry and Physics, 2007, 103(2-3): 450-455.

[92]Xiong, Shanxin; Wang, Qi*; Xia, Hesheng.Preparation of polyaniline nanotubes array based on anodic aluminum oxide template.Materials Research Bulletin, 2004, 39(10): 1569-1580.

[93]Xiong, Shanxin; Wang, Qi*; Xia, Hesheng.Template synthesis of polyaniline/TiO₂ bilayer microtubes.Synthetic Metals, 2004, 146(1): 37-42. 

[94]Wu, Bohua*; Du, Fengxiao; Wang, Haiting; Wu, Changqing; Chu, Jia; Wang, Xiaoqin; Xiong, Shanxin.Effects of annealing temperature of PtCu/MWCNT catalysts on their electrocatalytic performance of electrooxidation of methanol.Ionics.

發表中文期刊論文：

[1]郭乃華, 褚佳, 楊凡, 賈偉航, 熊善新. Ti/SnO₂-Sb-Ni-F電極的制備及其電催化降解羅丹明B性能研究[J]. 當代化工, 2023, 52 (12): 2773-2778.

[2]劉國權, 郭婧茹, 羅文, 毛倩楠, 熊善新. 水溶性聚(苯胺-間苯二胺)共聚物的制備及電致變色性能研究[J]. 功能材料與器件學報, 2022, 28 (03): 294-299.

[3]李振, 雪佳, 朱張磊, 熊善新, 李學振, 周安寧, 劉莉君, 于偉, 屈進州. 煤矸石綜合利用研究進展[J]. 礦產保護與利用, 2021, 41 (06): 165-178.

[4]從少領, 趙捷, 楊玉飛, 吳長清, 賀凡, 袁華, 汪曉芹*, 熊善新, 吳燕, 周安寧. 煤基聚苯胺制摻N碳微納米管的實驗研究[J]. 化工學報, 2021, 72 (09): 4950-4960.

[5]張潤蘭, 李帥帥, 陳長樂, 韓立安, 熊善新. Structures and local ferroelectric polarization switching properties of orthorhombic YFeO₃ thin film prepared by a sol–gel method[J]. Chinese Physics B, 2019, 28 (03): 357-361.

[6]張潤蘭, 蔡會武, 熊善新, 褚佳, 于春俠. 專業課教學現狀分析及科研反哺式教學的探索[J]. 廣州化工, 2018, 46 (07): 142-143.

[7]熊善新, 張潤蘭, 汪曉芹, 吳伯華, 褚佳, 宮銘. 文獻閱讀在提高研究生自主學習能力中的作用[J]. 山東化工, 2017, 46 (22): 144+146.

[8]張潤蘭, 孔真真, 汪曉芹, 康潔, 張亞婷, 熊善新. 退火溫度對多鐵性YFeO₃薄膜的結構、光學及磁學性能的影響[J]. 硅酸鹽學報, 2016, 44 (12): 1694-1699.

[9]褚佳, 王宇云, 汪曉芹, 熊善新. RGO/ZnO/PANI復合材料的制備及電致變色性能[J]. 山東化工, 2016, 45 (18): 1-3.

[10]褚佳, 強亮生, 逯登玉, 宋長磊, 王敏, 汪曉芹, 熊善新. MoS₂/PANI復合材料的乳液法制備及超級電容性能[J]. 黑龍江大學自然科學學報, 2016, 33 (04): 509-514.

[11]張永, 徐強強, 熊善新, 劉鴻翔, 宮銘, 汪曉芹. 揮發分和灰分對蘭炭/聚苯胺電容性能的影響[J]. 煤炭轉化, 2016, 39 (01): 82-85.

[12]熊善新, 汪曉芹. 研究生課程《高聚物結構與性能》的教學內容延伸——導電聚合物的結構與功能關系[J]. 山東化工, 2015, 44 (21): 132-133+135.

[13]汪曉芹, 張永, 程君, 林衛麗, 周安寧, 熊善新, 宮銘, 吳伯華, 褚佳. 原位聚合法制備蘭炭/聚苯胺復合材料及其電容性能[J]. 材料科學與工程學報, 2015, 33 (04): 490-495.

[14]褚佳, 馬晶, 朱雪丹, 熊善新, 汪曉芹, 宮銘, 吳伯華. 提高化學專業學生對天然產物化學學習興趣的探討[J]. 化工高等教育, 2015, 32 (02): 94-96.

[15]汪曉芹, 徐金鑫, 黃大慶, 熊善新, 鄧宇強, 宮銘, 張永, 郭飛. 羰基鐵粉@聚苯胺防腐吸波粉體的制備與性能[J]. 材料工程, 2014, (11): 90-96.

[16]張坤, 周安寧, 王嘉, 任曉媛, 熊善新, 褚佳, 曲建林. 煤氧化對太西無煙煤/聚苯胺復合材料結構與性能的影響[J]. 化工新型材料, 2014, 42 (09): 173-175+187.

[17]宮銘, 徐強強, 石玉靜, 吳伯華, 熊善新. 仿細胞外層膜結構修飾殼聚糖涂層的研究[J]. 化工新型材料, 2014, 42 (08): 82-84.

[18]汪曉芹, 周安寧, 熊善新, 徐強強, 褚佳, 宮銘. 無煙煤/聚苯胺復合材料的制備與其電容特性的研究[J]. 化工新型材料, 2014, 42 (07): 196-198+204.

[19]汪曉芹, 熊善新, 陳創前, 賀詩華, 侯春友, 趙順省, 褚佳. 《精細化學品化學》教學改革與實踐探索[J]. 山東化工, 2014, 43 (07): 173-174.

[20]徐強強, 薛琳, 汪曉芹, 熊善新, 褚佳, 宮銘. 循環伏安法制備聚苯胺及其復合物膜的研究[J]. 高分子通報, 2013, (12): 82-87.

[21]宮銘, 石玉靜, 吳伯華, 熊善新, 宮永寬. 仿細胞外層膜結構修飾交聯殼聚糖的研究[J]. 高分子學報, 2013, (08): 956-961.

[22]汪曉芹, 黃大慶, 熊善新, 鄧宇強, 杜紅崗. 涂層用環氧樹脂基料的增韌改性研究[J]. 中國塑料, 2013, 27 (03): 63-67.

[23]宮銘, 熊善新, 李智. 改性瀝青研究發展的新趨勢[J]. 廣州化工, 2012, 40 (16): 20-22.

[24]熊善新, 王琪. PMMA微管的模板法制備與形貌分析[J]. 西安科技大學學報, 2005, (04): 521-524.

[25]熊善新,王琪,陳英紅,費國霞. 模板中熱解聚丙烯腈制備碳納米管陣列[J]. 四川大學學報(工程科學版), 2004, (06): 51-54.

[26]熊善新,王琪,夏和生. 模板法制備一維聚合物納米材料的研究進展[J]. 高分子材料科學與工程, 2003, (06): 42-45.

[27]熊善新,周安寧,葛嶺梅. 復合型相容劑的制備及其對PP/煤共混體系的增容作用[J]. 中國塑料, 2002, (07): 76-79.

[28]熊善新,周安寧,葛嶺梅. 煤基聚合物合金用相容劑的制備研究[J]. 湘潭礦業學院學報, 2001, (01): 30-32.

[29]熊善新,周安寧,葛嶺梅. Coal-g-MAH/PMMA的制備及流變性能研究[J]. 煤炭轉化, 2001, (01): 79-82.

[30]熊善新,葛嶺梅,周安寧. HDPE固相接枝MAH接枝率的研究[J]. 西安科技學院學報, 2000, (03): 228-231.

會議論文： 

[1]熊善新, 李帥帥, 張相開 &  王茹. (2017). 基于界面聚合法構筑高比電容的導電聚合物/碳納米雜化電極材料. (eds.) 中國化學會2017全國高分子學術論文報告會摘要集——主題H：光電功能高分子 (pp.23).  

[2]熊善新, 孔真真 &  石玉靜. (2015). 電致變色過程中的電子傳導與離子傳輸. (eds.) 2015年全國高分子學術論文報告會論文摘要集——主題G 光電功能高分子 (pp.177). 

[3]李主峰, 熊善新 &  張永. (2015). 蘭炭制備活性炭電極材料及其電容性能. (eds.) 2015年第十四屆全國應用化學年會論文集（上） (pp.126).  

[4]熊善新, 傅加倫, 李主峰, 徐金鑫 &  石玉靜. (2014). 有機-無機納米雜化電致變色材料與器件. (eds.) 2014年全國高分子材料科學與工程研討會學術論文集（下冊） (pp.195-196).  

[5]石玉靜, 熊善新, 徐金鑫, 傅加倫 &  李主峰. (2014). 聚苯胺/碳納米雜化電致變色材料的制備研究. (eds.) 2014年全國高分子材料科學與工程研討會學術論文集（下冊） (pp.344-345). 

[6]熊善新. (2014). 高性能有機-無機納米雜化電致變色材料與器件. (eds.) 2014中國功能材料科技與產業高層論壇摘要集 (pp.60). 

[7]熊善新; 石玉靜.Novel Organic/inorganic Hybrids Electrochromic Materials with Covalent Bonding.The 4th International Symposium on Micro and Nano Technology, China, 2013-10-08 to 2013-10-12.

[8]熊善新 & 石玉靜. (2013). 基于導電聚合物的電致變色材料與超級電容器材料. (eds.) 2013年全國高分子學術論文報告會論文摘要集——主題G：光電功能高分子 (pp.81).  

[9]熊善新; 石玉靜.Organic/inorganic Hybrids with Covalent Bond: A Practical Approach for High-performance Electrochromic Materials.12th International Conference on Advanced Materials 2013, China, 2013-09-22 to 2013-09-27.

[10]熊善新; 陸雪紅.High-performance Electrochromic Devices Using Organic/inorganic Hybrids with Covalent Bonding as Active Layers.全國第九屆有機固體電子過程暨華人有機光電功能材料學術討論會, China, 2012-11-10 to 2012-11-12.

[11]熊善新; 陸雪紅.High-Performance of Electrochromic Device and Supercapacitor Based on C₆₀-PANI Hybrids.2012全國高分子材料科學與工程研討會, China, 2012-10-16 to 2012-10-20.

[12]Xiong Shanxin; Shi Yujing.High Performance Electrochromic Devices Using Star-like Geometry Polyaniline.IUPAC 8th International Conference on Novel Materials and their Synthesis & 22nd International Symposium on Fine Chemistry and Functional Polymers, China, 2012-10-14 to 2012-10-19.

[13]熊善新 & 陸雪紅. (2012). 基于C₆₀-PANI雜化材料的高性能電致變色器件與超級電容器電極. (eds.) 2012年全國高分子材料科學與工程研討會學術論文集（上冊） (pp.314-315). 

[14]熊善新 & Jan Ma. (2012). 共價鍵聯接的有機/無機雜化電致變色材料與器件. (eds.) 中國化學會第28屆學術年會第11分會場摘要集 (pp.84). 

[15]Xiong Shanxin; Lu Xuehong; Ma Jan.Organic/inorganic Hybrids with Covalent Bonding: Effective Approach for High-performance Electrochromic Materials.International Conference of Young Researchers on Advanced Materials, Singapore, 2012-07-01 to 2012-07-07.  

[16]熊善新, 楊帆 &  陸雪紅. (2011). 制備共價鍵聯接的富勒烯-聚苯胺新型超級電容器材料. (eds.) 2011年全國高分子學術論文報告會論文摘要集 (pp.714).  

[17]Xiong Shanxin; Yang Fan; Ma Jan; Lu Xuehong.Synthesis and Electrochromic Properties of Novel Star-like C₆₀-Polyaniline.International Conference on Materials for Advanced Technologies, Singapore, 2011-06-26 to 2011-07-01.

[18]Wei Jia; Xiong Shanxin; Ma Jan; Lu Xuehong.Electrochromic Performance of Polyaniline Using Star-like POSS-PSS as Dopant.9th International Meeting on Electrochromism, France, 2010-09-05 to 2010-09-09.

[19]熊善新; Ma Jan; Lu Xuehong.A complementary electrochromic device based on polyaniline tethered polyhedral oligomeric silsesquioxane and PEDOT: PSS.8 th International Meeting on Electrochromism, South Korea, 2008-08-24 to 2008-08-28.

[20]Jia P.T.; Ng J.K.P; Xu J.W.; 熊善新; Lu X.H..Synthesis, Characterization and Electrochromic Properties of Copolymer Derived from Hexa(4-Aminophenoxy) Cyclotriphosphazene and Aniline.International Conference on Materials for Advanced Technologies, Singapore, 2007.

[21]李侃社, 汪曉琴, 閆蘭英, 熊善新 &  丁賀. (2006). 超細高嶺土增強硅橡膠的初步研究. (eds.) 2006年全國高分子材料科學與工程研討會論文集 (pp.626).  

[22]Xiong Shanxin; Wang Qi; Cheng Yinghong.TEMPLATE SYNTHESIS OF MAGNETIC POLYANILINE/Fe₃O₄ COMPOSITE MICROTUBES.Third East Asian Polymer Conference, China, 2004-06. 

[23]熊善新; 夏和生; 王琪.模板法制備聚苯胺納米管的研究.2003全國高分子學術論文報告會, 中國, 2003-10-09.

學術交流：

多次在國際學術會議上作口頭報告，在“International Conference of Young Researchers on Advanced Materials”（ICYRAM 2012）等國際會議上受邀作邀請報告。

 

榮譽獎勵：

1. 2011年，入選陜西省“青年**計劃”特聘專家。

2. 2013年，入選中組部“西部之光訪問學者”。